2024级全日制学术学位硕士培养方案
080300光学工程(新能源材料与器件)(留学生) | |||||||||
一、简介 | |||||||||
东华大学新能源材料与器件硕士项目(英语授课),面向全球招收和培养新能源材料与器件专业方向的硕士研究生,该专业是由物理、光学工程、材料、电子等多学科交叉的战略性新兴专业。 The English-taught Master of Engineering (M.Eng.) program extensively enrolls and cultivates graduate students worldwide under the discipline New Energy Material & Device which is a multidisciplinary strategic emerging discipline crossed by optical engineering, physics, materials, and electronics. | |||||||||
二、培养目标 | |||||||||
通过本学科的培养,使学生掌握新能源材料与器件领域坚实宽广的物理、材料、电子和化学基础理论和系统深入的专门知识,了解本学科的前沿,熟识新能源材料的制备、器件构筑和测试分析技术,具有独立从事科学研究和承担专门技术工作的能力,使学生具备较强的创新能力、组织协调能力和良好的团队协作精神。 The program has endeavored in cultivating high-level international talents with comprehensive capability. Through the cultivation, to enable students to master the basic theory involved in new energy materials and devices, understand the forefront of the discipline, be familiar with the preparations, measurements and analysis of new energy material & device, has the ability of independent scientific research and special technical work, so that students have abilities of innovation, organization and coordination. | |||||||||
三、研究方向 | |||||||||
本学科主要研究方向包括光电材料与器件制备、光电材料与器件的计算和仿真、等离子体新能源物理与过程控制等方面的理论和技术问题。 The main research themes relates to the preparation of optoelectronic materials and devices, the calculation and simulation of optoelectronic materials and devices, the physics and process control of new energy and plasma. | |||||||||
四、基本修业年限(学制)与学分 | |||||||||
学制3年,最长学习年限4年,秋季学期入学。 应至少修满32学分,其中公共必修课至少10学分,专业必修课至少10学分,专业选修课至少12学分,必修环节0学分。 In line with the Chinese university system, the program of Masters Degrees in Donghua University last for two and a half years and the school starts from fall semester. | |||||||||
五、课程设置 | |||||||||
课程性质 | 课程代码 | 课程名称 | 课程英文名称 | 开课院系 | 学分 | 总学时 | 开课学期 | 备注信息 | 多选组 |
公共(必修)学位课 | 931EX011 | 初级汉语1 | Elementary Chinese I | 国际文化交流学院 | 4 | 64 | 1 | ||
931EX012 | 初级汉语2 | Elementary Chinese II | 国际文化交流学院 | 4 | 64 | 2 | |||
931EX010 | 中国概况 | Understanding China | 国际文化交流学院 | 2 | 32 | 1 | |||
专业(必修)学位课 | 325KC001 | 微纳光子学及应用 | Fundamental and Application of Micro-Nano-photonics | 物理学院 | 3 | 48 | 2 | ||
925KC001 | 文献选读与写作指导 | Seminar of selected papers and writing guide | 物理学院 | 1 | 16 | 2 | |||
301ZZ008 | 数值分析 | Numerical analysis | 数学与统计学院 | 2 | 32 | 1 | |||
325KC002 | 光电成像技术与系统 | Photo-electronic Imaging Technology and System | 物理学院 | 3 | 48 | 1 | |||
325ZZ001 | 学术讲座 | Seminars | 物理学院 | 1 | 16 | 2 | |||
专业选修课 | 325KC003 | 光电子学 | Optoelectronics | 物理学院 | 2 | 32 | 2 | ||
325ZZ002 | 薄膜沉积技术 | Thin Film Deposition | 物理学院 | 3 | 48 | 1 | |||
325KC006 | 光纤传感技术 | Optical Fiber Sensing | 物理学院 | 3 | 48 | 1 | |||
325KC007 | 光学系统设计 | Optical system design | 物理学院 | 3 | 48 | 1 | |||
325KC005 | 高等光学 | Advanced optics | 物理学院 | 3 | 48 | 1 | |||
325KC004 | 激光光学 | Laser Physics | 物理学院 | 2 | 32 | 2 | |||
925HA001 | 半导体材料与器件 | Semiconductor Materials and Devices | 物理学院 | 3 | 48 | 2 | |||
必修环节 | 901ZZ998 | 社会实践 | Social Practice | 0 | |||||
六、学位论文工作及发表学术成果要求 | |||||||||
学位论文工作及发表学术成果要求参见《理学院研究生获得成果基本要求》。 | |||||||||
七、其他 | |||||||||
2026年05月14日 | |||||||||